RU204596U1 - Tightest structure module - Google Patents

Abstract

This utility model relates to the field of construction, namely to spatial structural modules used as prefabricated residential blocks of settlements in hard-to-reach territories and in zones of extreme natural and climatic conditions, incl. living compartments of orbital space multi-module stations.

The technical result provided by the given set of features is to increase the functional efficiency of the module shape by creating special docking blocks in its structure, as well as expanding the combinatorial possibilities of forming variable spatial composite structures of various shapes.

This problem is solved due to the fact that in the module of the densest structure, which has the general configuration of a closed polyhedron, this polyhedron is made in the form of a main polyhedral block containing two mirror-symmetric opposite folded hexagonal elements, each of which includes a pair of identical central rectangular faces inclined to each other , joined to form a protruding central rib, and to which two pairs of identical parallelogram-shaped edges are attached along the lateral edges; at the same time, four symmetrical middle octagonal and isosceles hexagonal faces, alternating with each other, are attached to both hexagonal elements along the edges; moreover, lateral straight prisms with a corresponding hexagonal base are attached to the opposite lateral hexagonal faces of the main polyhedral block, the total height of which is the length of the protruding central edge of joining the rectangular faces.

Description

This utility model relates to the field of construction, namely to spatial structural modules used as prefabricated residential blocks of settlements in hard-to-reach territories and in zones of extreme natural and climatic conditions, incl. living compartments of orbital space multi-module stations.

From the existing list of similar technical solutions, a spatial module is known, which is a compartment of a polyhedron composed of triangular faces (US patent No. 4115963; Building module; E04B 1/32; 1978). The disadvantage of this technical solution, which prevents the technical result, which is provided by the utility model, is the impossibility of forming a variety of spatial composite structures of the densest layout based on this module.

Known enclosing structure in the form of a multifaceted closed module, made up of equilateral hexagonal and pentagonal faces, as well as trapezoidal plates adjacent to a flat base (application of the Federal Republic of Germany No. 2829301; Enclosing structure; E04B 1/00; 1980). The disadvantage of this technical solution is similar to the one described above.

Known composite structure of multifaceted modules, each of which includes a central square panel, surrounded by four mid-triangular faces, between which are placed four side triangular plates adjacent to the square base (US patent No. 3230673; Modular building; Cl. 52-79; 1966) ... The disadvantages of this solution are the insignificant internal volume of the module, as well as the impossibility of forming various spatial composite structures of the densest layout based on this module.

Known building multifaceted module, including central radial rhomboid panels, to which are attached along the contour side quadrangular edges adjacent to the polygonal base (UK application No. 1513781; Building element; E04B 1/32; 1978). The disadvantage of this technical solution, which prevents the technical result, which is provided by the utility model, is the impossibility of forming a variety of spatial composite structures of the densest layout based on this module.

The closest in technical essence to the claimed utility model is a multimodular structure composed of convex polyhedral modules, each of which includes a central pyramid of three diamond-shaped faces surrounded by six lateral trapezoidal faces mounted on a hexagonal flat base (French application No. 2414104; Variable architectural complex ; E04B 1/00, E04H 1/00; 1979). The modules are able to dock tightly on a flat surface.

The disadvantage of this technical solution, which prevents the technical result, which is provided by the utility model, is the absence of special docking blocks in the module structure, which serve as protective airlock chambers during the transition from one module to another. In addition, modules are not able to form diverse spatial structures of various shapes.

The task to be solved by the claimed utility model is to increase the functional efficiency of the module form by creating special docking blocks in its structure, as well as expanding the combinatorial possibilities of forming variable spatial composite structures of various shapes.

This problem is solved due to the fact that in the module of the densest structure, which has the general configuration of a closed polyhedron, this polyhedron is made in the form of a main polyhedral block containing two mirror-symmetric opposite folded hexagonal elements, each of which includes a pair of identical central rectangular faces inclined to each other , joined to form a protruding central rib and to which two pairs of identical parallelogram-shaped edges are attached along the lateral edges; at the same time, four symmetrical middle octagonal and isosceles hexagonal faces, alternating with each other, are attached to both hexagonal elements along the edges; moreover, lateral straight prisms with a corresponding hexagonal base are attached to the opposing lateral hexagonal faces of the main polyhedral block, the total height of which is the length of the protruding central edge of the joining of the rectangular faces.

The technical result provided by the given set of features is to increase the functional efficiency of the module shape by creating special docking blocks in its structure, as well as expanding the combinatorial possibilities of forming variable spatial composite structures of various shapes.

The essence of the utility model is illustrated by drawings.

FIG. 1 shows a general view of a module of the densest structure.

FIG. 2 shows the main polyhedral block of the module.

The module of the densest structure has the general configuration of a closed polyhedron. This polyhedron is made in the form of a main polyhedral block 1 containing two mirror-symmetric opposite folded hexagonal elements 2, each of which includes a pair of identical central rectangular faces 3 inclined to each other, butted to form a protruding central rib 4 and to which two pairs of identical faces 5 in the form of a parallelogram; in this case, to both hexagonal elements 2 along the edges are attached four symmetrical middle octagonal and isosceles hexagonal faces 6 and 7, alternating with each other; moreover, lateral straight prisms 8 with a corresponding hexagonal base are attached to the opposite lateral hexagonal faces 7 of the main polyhedral block 1, the total height of which is the length of the protruding central edge 4 of the joining of rectangular faces 3.

In special cases, the faces 3, 6, 7 of the main polyhedral block 1 can be made in the form of regular polygons.

The multifaceted shell of the inventive module of the densest structure is made, for example, of multilayer composite materials with an internal foamed insulating insulation. It is possible to constructively manufacture the prefabricated shell of the module from sandwich plates.

The side prisms 8 of the module can serve as transitional docking gates between the main multifaceted blocks 1 in the overall system of a composite spatial structure. In special cases, the octagonal and hexagonal side faces 6 and 7 of the main polyhedral block 1 can be made in the form of regular polygons.

The modules can together form three-dimensional multi-module objects of various spatial configurations with the densest composite structure, sequentially joining each other by known methods.

The declared configuration and fully assembled design of the module can provide its completely autonomous, isolated life support as a volumetric component of a composite multi-module structure of the densest layout.

Claims (1)

A module of the densest structure, having the general configuration of a closed polyhedron, characterized in that this polyhedron is made in the form of a main polyhedral block containing two mirror-symmetric opposing folded hexagonal elements, each of which includes a pair of identical central rectangular faces inclined to each other, butted to form a protruding a central rib, and to which two pairs of identical parallelogram-shaped edges are attached along the lateral edges; at the same time, four symmetrical middle octagonal and isosceles hexagonal faces, alternating with each other, are attached to both hexagonal elements along the edges; moreover, lateral straight prisms with a corresponding hexagonal base are attached to the opposing lateral hexagonal faces of the main polyhedral block, the total height of which is the length of the protruding central edge of the joining of the rectangular faces.

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